You don't really gain anything by storing the cache as a dictionary since in order to calculate `f(n)`

you need to know `f(n-1)`

(and `f(n-2)`

). In other words, your dictionary will always have keys from 2-n. You might as well just use a list instead (it's only an extra 2 elements). Here's a version which caches properly and doesn't hit the recursion limit (ever):

```
import time
cache = [1,1]
def dynamic_fib(n):
#print n
if n >= len(cache):
for i in range(len(cache),n):
dynamic_fib(i)
cache.append(dynamic_fib(n-1) + dynamic_fib(n-2))
print "caching %d" % n
return cache[n]
if __name__ == "__main__":
start = time.time()
a = dynamic_fib(4000)
print "Dynamic",a
print (time.time() - start)
```

Note that you could do the same thing with a dict, but I'm almost positive that a list will be faster.

Just for fun, here's a bunch of options (and timings!):

```
def fib_iter(n):
a, b = 1, 1
for i in xrange(n):
a, b = b, a + b
return a
memo_iter = [1,1]
def fib_iter_memo(n):
if n == 0:
return 1
else:
try:
return memo_iter[n+1]
except IndexError:
a,b = memo_iter[-2:]
for i in xrange(len(memo_iter),n+2):
a, b = b, a + b
memo_iter.append(a)
return memo_iter[-1]
dyn_cache = [1,1]
def dynamic_fib(n):
if n >= len(dyn_cache):
for i in xrange(len(dyn_cache),n):
dynamic_fib(i)
dyn_cache.append(dynamic_fib(n-1) + dynamic_fib(n-2))
return dyn_cache[n]
dyn_cache2 = [1,1]
def dynamic_fib2(n):
if n >= len(dyn_cache2):
for i in xrange(len(dyn_cache2),n):
dynamic_fib2(i)
dyn_cache2.append(dyn_cache2[-1] + dyn_cache2[-2])
return dyn_cache2[n]
cache_fibo = [1,1]
def dyn_fib_simple(n):
while len(cache_fibo) <= n:
cache_fibo.append(cache_fibo[-1]+cache_fibo[-2])
return cache_fibo[n]
import timeit
for func in ('dyn_fib_simple','dynamic_fib2','dynamic_fib','fib_iter_memo','fib_iter'):
print timeit.timeit('%s(100)'%func,setup='from __main__ import %s'%func),func
print fib_iter(100)
print fib_iter_memo(100)
print fib_iter_memo(100)
print dynamic_fib(100)
print dynamic_fib2(100)
print dyn_fib_simple(100)
```

And the results:

```
0.269892930984 dyn_fib_simple
0.256865024567 dynamic_fib2
0.241492033005 dynamic_fib
0.222282171249 fib_iter_memo
7.23831701279 fib_iter
573147844013817084101
573147844013817084101
573147844013817084101
573147844013817084101
573147844013817084101
573147844013817084101
```

`RuntimeError: maximum recursion depth exceeded`

– David Robinson Jan 3 '13 at 18:00`This limit prevents infinite recursion from causing an overflow of the C stack and crashing Python.`

– Ashwini Chaudhary Jan 3 '13 at 18:04